In this study, we explore the use of molecules and molecular electronics for quantum
computing. We construct one-qubit gates using one-electron scattering in molecules and two …

Game theory problems are widely applied in many research areas such as computer
science and finance, with the key issue being how to quickly make decisions. Here, we …

A specifically designed aza-starphene molecule is presented where contacting one, two,
and/or three single Al adatoms allows this molecule to function as a “3-inputs & 2-outputs” …

In the age of the post-Moore era, the next-generation computing model would be a hybrid
architecture consisting of different physical components, such as photonic chips. In 2008, it …

Classical combinational logic circuits (CCLCs) are widely used in various fields.
Corresponding to the CCLCs, here schemes are given for some quantum combinational …

Abstract Quantum Hamiltonian Computing is a recent approach that uses quantum systems,
in particular a single molecule, to perform computational tasks. Within this approach, we …

Based on the correspondence between circuit Laplacian and Schrodinger equation, recent
investigations have shown that classical electric circuits can be used to simulate various …

A tetrabenzo [a, c, jh] phenazine molecule is functionning like a “2 input–1 output” XOR
Boolean logic gate using the quantum level repulsion effect of the Quantum Hamiltonian …

Compared with classical algorithms, quantum algorithms can show the advantage of
exponential speedup in solving some problems. Solving the NAND‐Tree problem is a …

Determining properties of molecules and materials is one of the premier applications of
quantum computing. A major question in the thesis is: how might we use long-and near-term …